Zelda64Recomp/patches/quicksave_patches.c

233 lines
6.1 KiB
C

// Quicksaving is disabled for now
/* To reenable it, a few changes to the recompiled functions are also needed:
in Main:
L_80174E84:
// or $a0, $s3, $zero
ctx->r4 = ctx->r19 | 0;
// addiu $a1, $sp, 0x38
ctx->r5 = ADD32(ctx->r29, 0X38);
// jal 0x80087ED0
// addiu $a2, $zero, 0x1
ctx->r6 = ADD32(0, 0X1);
osRecvMesg_recomp(rdram, ctx);
+handle_quicksave_actions(rdram, ctx);
in Graph_ThreadEntry:
L_801749C8:
+handle_quicksave_actions_main(rdram, ctx);
+ctx->r4 = ctx->r17 | 0;
// jal 0x80174868
// or $a1, $s0, $zero
ctx->r5 = ctx->r16 | 0;
Graph_Update(rdram, ctx);
in PadMgr_ThreadEntry:
L_801760A0:
// or $a1, $s2, $zero
ctx->r5 = ctx->r18 | 0;
// jal 0x80087ED0
// or $a2, $s3, $zero
ctx->r6 = ctx->r19 | 0;
osRecvMesg_recomp(rdram, ctx);
+handle_quicksave_actions(rdram, ctx);
in AudioMgr_ThreadEntry:
L_80172F58:
+handle_quicksave_actions(rdram, ctx);
+ctx->r4 = ctx->r22 | 0;
// or $a1, $s2, $zero
ctx->r5 = ctx->r18 | 0;
// jal 0x80087ED0
// or $a2, $s3, $zero
ctx->r6 = ctx->r19 | 0;
osRecvMesg_recomp(rdram, ctx);
*/
#if 0
#include "patches.h"
#include "input.h"
#include "audiomgr.h"
// ultramodern's message queues can be statically initialized, so we don't actually need to call osCreateMesgQueue for these.
OSMesg quicksave_enter_mq_buffer[20];
OSMesgQueue quicksave_enter_mq = {
.msgCount = ARRAY_COUNT(quicksave_enter_mq_buffer),
.msg = quicksave_enter_mq_buffer,
.validCount = 0,
.first = 0
};
OSMesg quicksave_exit_mq_buffer[20];
OSMesgQueue quicksave_exit_mq = {
.msgCount = ARRAY_COUNT(quicksave_exit_mq_buffer),
.msg = quicksave_exit_mq_buffer,
.validCount = 0,
.first = 0
};
void handle_quicksave_actions() {
recomp_handle_quicksave_actions(&quicksave_enter_mq, &quicksave_exit_mq);
}
extern OSMesgQueue sIrqMgrMsgQueue; // For Main thread
s16 main_irq_message = 0; // dummy value for sending a pointer to the main thread
#define RECOMP_IRQ_QUICKSAVE 0x2A2
void IrqMgr_ThreadEntry(IrqMgr* irqmgr) {
u32 interrupt;
u32 stop;
interrupt = 0;
stop = 0;
while (stop == 0) {
if (stop) {
;
}
osRecvMesg(&irqmgr->irqQueue, (OSMesg*)&interrupt, OS_MESG_BLOCK);
switch (interrupt) {
case 0x29A:
IrqMgr_HandleRetrace(irqmgr);
break;
case 0x29D:
IrqMgr_HandlePreNMI(irqmgr);
break;
case 0x29F:
IrqMgr_HandlePRENMI450(irqmgr);
break;
case 0x2A0:
IrqMgr_HandlePRENMI480(irqmgr);
break;
case 0x2A1:
IrqMgr_HandlePRENMI500(irqmgr);
break;
case RECOMP_IRQ_QUICKSAVE:
handle_quicksave_actions();
break;
}
}
}
extern IrqMgr gIrqMgr;
#define RSP_DONE_MSG 667
#define RDP_DONE_MSG 668
#define ENTRY_MSG 670
#define RDP_AUDIO_CANCEL_MSG 671
#define RSP_GFX_CANCEL_MSG 672
#define RECOMP_QUICKSAVE_ACTION 673 // @recomp
void Sched_ThreadEntry(void* arg) {
s32 msg = 0;
SchedContext* sched = (SchedContext*)arg;
while (true) {
osRecvMesg(&sched->interruptQ, (OSMesg*)&msg, OS_MESG_BLOCK);
// Check if it's a message from another thread or the OS
switch (msg) {
case RDP_AUDIO_CANCEL_MSG:
Sched_HandleAudioCancel(sched);
continue;
case RSP_GFX_CANCEL_MSG:
Sched_HandleGfxCancel(sched);
continue;
case NOTIFY_MSG:
Sched_HandleNotify(sched);
continue;
case RSP_DONE_MSG:
Sched_HandleRSPDone(sched);
continue;
case RDP_DONE_MSG:
Sched_HandleRDPDone(sched);
continue;
case RECOMP_QUICKSAVE_ACTION:
handle_quicksave_actions();
continue;
}
// Check if it's a message from the IrqMgr
switch (((OSScMsg*)msg)->type) {
case OS_SC_RETRACE_MSG:
Sched_HandleRetrace(sched);
continue;
case OS_SC_PRE_NMI_MSG:
Sched_HandlePreNMI(sched);
continue;
case OS_SC_NMI_MSG:
Sched_HandleNMI(sched);
continue;
}
}
}
extern PadMgr* sPadMgrInstance;
s16 padmgr_dummy_message = 0;
extern AudioMgr sAudioMgr;
s16 audiomgr_dummy_message = 0;
extern OSMesgQueue sDmaMgrMsgQueue;
#define RECOMP_DMAMGR_QUICKSAVE_MESSAGE 1
void DmaMgr_ThreadEntry(void* a0) {
OSMesg msg;
DmaRequest* req;
while (1) {
osRecvMesg(&sDmaMgrMsgQueue, &msg, OS_MESG_BLOCK);
if (msg == NULL) {
break;
}
if (msg == (OSMesg)RECOMP_DMAMGR_QUICKSAVE_MESSAGE) {
handle_quicksave_actions();
continue;
}
req = (DmaRequest*)msg;
DmaMgr_ProcessRequest(req);
if (req->notifyQueue) {
osSendMesg(req->notifyQueue, req->notifyMsg, OS_MESG_NOBLOCK);
}
}
}
extern Scheduler gScheduler;
void handle_quicksave_actions_main() {
recomp_handle_quicksave_actions_main(&quicksave_enter_mq, &quicksave_exit_mq);
}
void wake_threads_for_quicksave_action() {
// Wake up the Main thread
osSendMesg(&sIrqMgrMsgQueue, &main_irq_message, OS_MESG_BLOCK);
// Wake up the IrqMgr thread
osSendMesg(&gIrqMgr.irqQueue, (OSMesg)RECOMP_IRQ_QUICKSAVE, OS_MESG_BLOCK);
// Wake up the PadMgr thread
osSendMesg(&sPadMgrInstance->interruptQueue, &padmgr_dummy_message, OS_MESG_BLOCK);
// Wake up the AudioMgr thread
osSendMesg(&sAudioMgr.interruptQueue, &audiomgr_dummy_message, OS_MESG_BLOCK);
// Wake up the DmaMgr thread
osSendMesg(&sDmaMgrMsgQueue, (OSMesg)RECOMP_DMAMGR_QUICKSAVE_MESSAGE, OS_MESG_BLOCK);
// Wake up the Sched thread
osSendMesg(&gScheduler.interruptQ, (OSMesg)RECOMP_QUICKSAVE_ACTION, OS_MESG_BLOCK);
}
#endif